Assessment of Genetic Diversity for American Shad in the Santee-Cooper River Basin of South Carolina Prior to Hatchery Augmentation

Assessment of Genetic Diversity for American Shad in the Santee-Cooper River Basin of South Carolina Prior to Hatchery Augmentation

American shad Alosa sapidissima once supported large commercial fisheries along the Atlantic coast, but by the early 1980s many of these fisheries had declined precipitously. In contrast to most Atlantic coastal rivers, the abundance of American shad in the Santee-Cooper River basin of South Carolin...

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Bibliographic Details
Published in:Marine and coastal fisheries Vol. 4; no. 1; pp. 312 - 326
Main Authors: Moyer, G. R, Williams, A. S
Format: Journal Article
Language:English
Published: Bethesda American Fisheries Society 2012
Taylor & Francis Group
John Wiley & Sons, Inc
Subjects:
Alleles
Alosa sapidissima
Breeding
Breeding stock
Coasts
Fish
Fish hatcheries
Fish ladders
Fisheries
Fishing
Fishways
Freshwater
Freshwater fishes
Genetic diversity
Genetic markers
Genetic variation
Government
Habitat loss
Habitat selection
Heterozygosity
Impoundments
Marine
Microsatellites
Population
Population genetics
Relocation
River basins
Rivers
Spawning
SPECIAL SECTION: AMERICAN SHAD AND RIVER HERRING
Stock assessment
Stocks
Success
Tags
Upstream
Watersheds
South Carolina
Canada
United States > US
Lake Moultrie
Lake Marion
Cooper River
Florida
USA, Atlantic Coast
USA, South Carolina, Santee-Cooper R
ANW, USA, South Carolina
A, Atlantic
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Description
Summary:American shad Alosa sapidissima once supported large commercial fisheries along the Atlantic coast, but by the early 1980s many of these fisheries had declined precipitously. In contrast to most Atlantic coastal rivers, the abundance of American shad in the Santee-Cooper River basin of South Carolina has grown substantially; still, much of their upstream spawning habitat in this watershed has been restricted or adversely affected by impoundments. In an effort to rebuild populations in upstream river reaches of the Santee-Cooper basin, state and federal agencies developed an approach relying on hatchery augmentation, the relocation of prespawning adults, and the construction of permanent fish passage structures. Genetic monitoring was adopted to ensure that the genetic integrity of the population remains intact during the rebuilding process. Our study provided an initial assessment of genetic diversity for the genetic monitoring program. There were three components to the study: an assessment of within-basin genetic stock structure, a comparison of genetic diversity (the number of alleles and observed heterozygosity) between hatchery and wild stocks, and an evaluation of molecular tags for monitoring hatchery returns. The estimation of genetic diversity and the assessment of molecular tags were based on 10 microsatellite loci. We found no apparent stock structure in the Santee-Cooper basin and no difference in genetic diversity between broodstock and their wild counterparts. Eight microsatellite markers provided enough resolution to successfully (>95% assignment success) match returning American shad with their respective hatchery parents. Our results highlight the utility and importance of integrating genetic information in supportive breeding programs in an effort to evaluate the programs' effectiveness (both in terms of increasing the census size and in terms of maintaining the long-term viability of a population).
Bibliography:http://dx.doi.org/10.1080%2F19425120.2012.675966
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ISSN:1942-5120
1942-5120
DOI:10.1080/19425120.2012.675966